Method and apparatus for receiving and playing back data

ABSTRACT

Provides methods and apparatus to reduce effects on playback of moving picture data caused by variations in data transmission rate that occur on a communication line, a receiving and playing back apparatus includes a receiver for receiving moving picture data transmitted over a communication line; playback modules for playing back the received moving picture data; buffer B for temporarily storing the moving picture data received by the receiver and outputting the stored moving picture data at a desired speed; and buffer A for providing the playback modules with moving picture data required for playback processing.

FIELD OF THE INVENTION

The present invention relates to an apparatus for receiving and playingback moving picture data transmitted from a server through acommunication line and a method thereof.

BACKGROUND OF THE INVENTION

FIG. 6( a) shows an outline of a moving picture distribution system.Moving picture data to be distributed includes either one of video andaudio or both, and may include a static image in a moving picture. Atransmission side 10 comprises an MPEG2 (Moving Picture Expert Group 2)encoder 12 for compressing moving picture data by using an MPEG2 system;and a transmitter 14 for transmitting the compressed MPEG2 data. Areception side 20 comprises a receiver 22 for receiving MPEG2 data; andan MPEG2 decoder 24 for restoring the received MPEG2 data to the statebefore compression. The transmission side 10 and the reception side 20are connected to each other over a communication line 18.

Communication lines using ATM (Asynchronous Transfer Mode), Ethernet,Token Ring, ADSL (Asymmetric Digital Subscriber Line), and communicationsatellite, or the like are typically used as the communication line 18.Although it depends on the protocol used in each communication line,most of the communication lines have a major purpose of correctlytransmitting data, so that they do not aim to transmit fixed data volumewithin a fixed period of time. Few communication lines always have auniform data transmission speed.

In these communication lines, a uniform transmission rate is not alwayssecured or constant transmission delay is not always caused, but thedata transmission rate varies with time in most cases. When video andaudio are transmitted over such communication lines, their datatransmission rates often vary in a short time unit, even if data istransmitted at a constant rate in a long time unit.

When a data receiving speed of the receiver 22 is faster than a dataplayback or reproduction speed of an MPEG2 decoder 24, data is overflownon the decoder 24 side, which causes lack of data. When the datareceiving speed of the receiver 22 is slower than the data playbackspeed of the MPEG2 decoder 24, a shortage of data occurs on the decoder24 side, which results in an inability to play back the data. In thiscase, due to noise specific to digital playback that may occur on adisplay screen or stop of motion of displayed picture, the video becomesextremely unclear. It is substantially similar to being impossible toplay back the moving pictures. Measures are generally taken on thetransmission side 10 to minimize variations in data transmission whentransmitting data. It is, however, impossible to take measures againstthe variations caused by routers and the like on the communication line18 because it is difficult for the transmission side 10 to detect thevariations. Data volume received by the reception side 20 from thetransmission side 10 varies by time in most cases.

FIG. 7( a) shows a transmitting server system 30 which is an example ofconfiguration of the transmission side 10. FIG. 7( b) shows a receivingand playing back apparatus 40 which is an example of configuration ofthe reception side 20. In FIGS. 7( a) and 7(b), an ADSL is respectivelyused as an example of transmission line. The ADSL includes a telephoneline. An ATM network 28 shown in FIG. 7( a) is a network inside thetransmitting server system 30.

The transmitting server system 30 converts a plurality of movingpictures to MPEG2 data and transmits the data. MPEG2 encoders 32compress moving picture data to MPEG2 data. The compressed MPEG2 dataare merged into one data (MPEG2-TS (Transport Stream)) by an MPEG2multiplexing section 34. Each MPEG2 data included in MPEG2-TS is, asshown in FIG. 6( b), divided into a plurality of data (DATA0, DATA1,DATA2, DATA3, . . . ). Time information (T0, T1, T2, T3, . . . ) takingaccount of time variations that have occurred during MPEG2 encoding isattached to each data (DATA0, DATA1, DATA2, DATA3, . . . ) at the timeof multiplexing. The time information shows relative playback time ofmoving picture data, so that the receiving and playing back apparatus 40is capable of playing back or reproducing the moving picture data atcorrect playback time on the basis of the time information.

The MPEG2-TS packets are converted to ATM packets by an ATM convertingsection 36 and transmitted to an ADSL transmitting section 38 via theATM network 28. The ADSL transmitting section 38 transmits data to thereceiving and playing back apparatus 40 over a telephone line. Since thebandwidth of a telephone line is generally narrower than that of the ATMnetwork 28 and the quality of the line is poor, variations in datatransmission rate may be considered to be mostly caused by the telephoneline.

In the receiving and playing back apparatus 40, an ADSL receivingsection 42 receives data transmitted from the transmitting server system30 and an ATM demodulating section 44 demodulates the ATM packets toMPEG2-TS packets. The demodulated MPEG2-TS includes a plurality of MPEG2data, so that either one of the MPEG2 data is extracted by an MPEG2-TSdemultiplexer 46. An MPU (Microprocessor Unit) 56 specifies the MPEG2data to be extracted. The MPU 56 controls each section (42, 44, 46, 48,50, 52, 54) of the apparatus 40. The extracted MPEG2 data is sent to anMPEG2 decoder 50 through buffer A (reference number 48). The movingpicture data restored by the MPEG2 decoder 50 is converted to an NTSC(National Television System Committee) signal by an NTSC encoder 52 tobe outputted to a video/audio output unit. The MPEG2 decoder 50 and theNTSC encoder 52 act as playback means. For example, speakerintegrated-television monitors can be used as video/audio output units.

Time required for the above-mentioned data conversion processing to beperformed within the transmitting server system 30 and the receiving andplaying back apparatus 40 is not always constant. Variations inrespective processing time for the MPEG2 data multiplexing, ATM packetconversion, and ADSL transmission may occur within the transmittingserver system 30. Variations in respective processing time for the ADSLreception and the ATM demodulation may occur within the apparatus 40.Accordingly, variations in processing time for data conversion withinthe transmitting server system 30 and the apparatus 40 may causevariations in data transmission rate as well.

The variations in data conversion processing time can be compensated bycoordinating the timing in the transmitting server system 30 and playingback apparatus 40 using the time information attached at the time ofmultiplexing. For example, data playback time specified by the serversystem 30 shown in FIG. 6( c) and data playback time on the apparatus 40side shown in FIG. 6( d) can be matched by the time information (T0, T1,T2, T3, . . . ) attached to each of the divided MPEG2 data (DATA0,DATA1, DATA2, DATA3, . . . ) as shown in FIG. 6( b). Ts1 is playbackstarting time of the server system 30 side and Ts2 is playback startingtime of the apparatus 40 side. Due to delay in transmission, it isindicated that Ts1<Ts2. Tc1 is time unit of the server system 30 sideand Tc2 is time unit of the apparatus 40, and then Tc1=Tc2.

In the receiving and playing back apparatus 40 shown in FIG. 7( b), abase clock generating section 54 controls the time unit Tc2. The baseclock generating section 54 generates a base clock for the entireapparatus 40. For example, 100 clocks of the base clock can be set toTc2. Although it is generally set that Tc2=Tc1, the section 54 increasesand decreases Tc2 depending on used space of buffer A.

When used space of buffer A exceeds a predetermined value and approachesan overflow, the base clock generating section 54 shortens the time unitTc2 to speed up the playback time performed by the MPEG2 decoder 50 andthe NTSC encoder 52. The moving picture data transmitted from buffer Ato the MPEG2 decoder 50 temporarily increases because of a rise inplayback speed. An increase in data volume outputted from buffer Aprevents an overflow from occurring.

When the used space of buffer A decreases below a predetermined valueand comes near to the state of no memory data (underflow), the baseclock generating section 54 lengthens Tc2 to slow down the playbackspeeds of the MPEG2 decoder 50 and the NTSC encoder 52. The movingpicture data transmitted from buffer A to the MPEG2 decoder 50temporarily decreases because of a drop in playback speed. A reductionin data volume outputted from buffer A prevents an underflow fromoccurring.

If Tc2 can be adjusted in a wider range of time, wider variations indata transmission rate and data conversion time will be compensated. Thebase clock defining Tc2 is, however, used for the entire receiving andplaying back apparatus 40, so that it is impossible to change Tc2 sowidely. Thus, there is a limit on adjustment range of a receiving andplaying back apparatus against variations in data transmission speed.Conventional receiving and playing back apparatuses have adaptability tovariations of −0.1% to +0.1%. On the other hand, variations of some % tosome tens % or greater may occur on conventional communication lines,such as telephone lines.

SUMMARY OF THE INVENTION

It is therefore an aspect of the present invention to reduce effects onplayback of moving picture data caused by variations in datatransmission rate that occur on a communication line.

An embodiment of an apparatus for receiving and playing back dataaccording to the present invention includes means for receiving movingpicture data transmitted over a communication line; means for playingback the received moving picture data; a first buffer memory fortemporarily storing the moving picture data transmitted from thereceiving means to the playback means and providing the playback meanswith the moving picture data required for playback processing; a secondbuffer memory for temporarily storing the moving picture data receivedby the receiving means; and means for controlling the speed of readingthe moving picture data from the second buffer memory to transmit themoving picture data to the first buffer memory. The moving picture datacan be inputted to the first buffer memory at a desired speed bydisposing the second buffer memory.

An embodiment of a method for receiving and playing back data accordingto the present invention includes the steps of storing the receivedmoving picture data in the second buffer memory; reading the movingpicture data from the second buffer memory at a desired speed; storingthe moving picture data read from the second buffer memory in the firstbuffer memory; reading the moving picture data required for playing backfrom the first buffer memory; and playing back the moving picture dataread from the first buffer memory.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other aspects, features, and advantages of the presentinvention will become apparent upon further consideration of thefollowing detailed description of the invention when read in conjunctionwith the drawing figures, in which:

FIG. 1 is a block diagram showing a structure example of a receiving andplaying back apparatus of the present invention;

FIG. 2 is a block diagram showing a structure example of buffer B of theapparatus shown in FIG, 1;

FIG. 3 is a flow chart showing an example of a procedure for adjustingthe speed of reading data from buffer B;

FIG. 4 is a flow chart showing an example of additional adjustment shownin FIG. 3;

FIGS. 5( a) and 5(b) are each block diagrams respectively showinganother structure example of buffer B of the receiving and playing backapparatus;

FIG. 6( a) is a block diagram showing an outline of a conventionalmoving picture transmission system;

FIG. 6( b) shows an outline of time information attached to each dividedMPEG2 data;

FIG. 6( c) shows time of moving picture playback on a transmission side;

FIG. 6( d) shows time of moving picture playback on a reception side;

FIG. 7( a) is a block diagram showing a structure example of aconventional transmitting server; and

FIG. 7( b) is a block diagram showing a structure example of aconventional receiving and playing back apparatus.

[Reference characters of the Drawings] 10: Transmission side 12, 32:MPEG2 (Moving Picture Expert Group-2) encoder 14: Transmitter 18:Communication line 20: Reception side 22: Receiver 24, 50: MPEG2 (MovingPicture Expert Group-2) decoder 28: ATM (Asynchronous Transfer Mode)network 30: Transmitting server system 34: MPEG2 (Moving Picture ExpertGroup-2) multiplexing section 36: ATM (Asynchronous Transfer Mode)converting section 38: ADSL (Asymmetric Digital Subscriber Line)transmitting section 40: Conventional receiving and playing backapparatus 42: ADSL (Asymmetric Digital Subscriber Line) receivingsection 44: ATM (Asynchronous Transfer Mode) demodulating section 46:MPEG2-TS (Moving Picture Expert Group-2 Transport Stream) demultiplexer48: Buffer A (First buffer memory) 52: NTSC (National Television SystemCommittee) encoder 54: Base clock generating section 56: MPU(Microprocessor) 60: Receiving and playing back apparatus 62: Buffer B64: Memory capacity monitor 66: Reading mode switching unit 68: Readingcontroller 70: Buffer memory (Second buffer memory)

DESCRIPTION OF THE INVENTION

The present invention provides methods and apparatus to reduce effectson playback of moving picture data caused by variations in datatransmission rate that occur on a communication line. An exampleapparatus for receiving and playing back data according to the presentinvention includes means for receiving moving picture data transmittedover a communication line; means for playing back the received movingpicture data; a first buffer memory for temporarily storing the movingpicture data transmitted from the receiving means to the playback meansand providing the playback means with the moving picture data requiredfor playback processing; a second buffer memory for temporarily storingthe moving picture data received by the receiving means; and means forcontrolling the speed of reading the moving picture data from the secondbuffer memory to transmit the moving picture data to the first buffermemory. The moving picture data can be inputted to the first buffermemory at a desired speed by disposing the second buffer memory.

Thus, an apparatus for receiving and playing back data according to thepresent invention includes: a receiver to receive picture datatransmitted over a communication line; a playback module to play backthe received picture data; a first buffer memory for temporarily storingthe picture data transmitted from the receiver the playback module andproviding the playback module with the picture data required forplayback processing; a second buffer memory for temporarily storing thepicture data received by the receiver; and a controller to control thespeed of reading the picture data from the second buffer memory totransmit the data to the first buffer memory. Each element of theapparatus is implemented as known to those skilled in the art.

In some embodiments, the invention is implemented as a computer programproduct comprising a computer usable medium having computer readableprogram code means embodied therein for causing receiving and playingback data, the computer readable program code means in said computerprogram product comprising computer readable program code means forcausing a computer to effect the functions of the apparatus of theinvention

An example method for receiving and playing back data according to thepresent invention includes the steps of storing the received movingpicture data in the second buffer memory; reading the moving picturedata from the second buffer memory at a desired speed; storing themoving picture data read from the second buffer memory in the firstbuffer memory; reading the moving picture data required for playing backfrom the first buffer memory; and playing back the moving picture dataread from the first buffer memory.

Next, an advantageous embodiment of a method and an apparatus forreceiving and playing back data according to the present invention willbe described in detail with reference to the accompanying drawings. Amoving picture transmitting server system may be the same as aconventional transmitting server system 30 shown in FIG. 7( a).

FIG. 1 shows a configuration example of a receiving and playing back (orreproducing) apparatus 60 according to the present invention. Theapparatus 60 includes buffer B (reference number 62) for temporarilystoring moving picture data received by an ADSL receiving section 42 andoutputting the stored moving picture data to buffer A (reference number48) at a desired speed. The ADSL receiving section 42, ATM demodulatingsection 44, MPEG2-TS demultiplexer 46, buffer A, MPEG2 decoder 50, andNTSC encoder 52, base clock generating section 54, and MPU 56 exceptbuffer B may be similarly configured to conventional ones (FIG. 7( b)).

MPEG2-TS is inputted to buffer B. The ADSL receiving section 42 receivesdata transmitted from a transmitting server system 30 over a telephoneline. And the ATM demodulating section 44 demodulates the received datato obtain MPEG2-TS. MPEG2-TS is outputted from buffer B at a desiredspeed. The outputted MPEG2-TS is inputted to the MPEG2-TS demultiplexer46.

Since MPEG2-TS includes a plurality of MPEG2 data, the required MPEG2data is extracted by the MPEG2-TS demultiplexer 46. The extracted MPEG2data is inputted to buffer A (reference number 48). Buffer A temporarilystores the MPEG2 data and provides moving picture data required forplayback processing for the MPEG2 decoder 50. The decoder 50 restoresthe MPEG2 data outputted from buffer A to a state before compression.The NTSC encoder 52 converts the MPEG2 data to an NTSC signal. Themoving pictures recovered by the decoder 50 and the encoder 52 areoutputted to a video/audio output unit.

The base clock generating section 54 generates a base clock acting asoperational criteria of respective sections of the receiving and playingback apparatus 60. In FIG. 1, a time unit Tc2, which is defined by thebase clock, is transmitted to the MPEG2 decoder 50 and the NTSC encoder52. In addition, the base clock generating section 54 monitors usedspace of buffer A. The MPU 56 controls respective sections (42, 44, 46,48, 50, 52, 54, and 62) of the apparatus 60.

Buffer B (reference number 62) includes, as shown in FIG. 2, a buffermemory 70 for temporarily storing MPEG-TS and buffer memory controllingmeans for controlling the speed of reading data from the buffer memory70 (64, 68, 56). The buffer memory controlling means includes a memorycapacity monitor 64 for monitoring the used space (i.e., data recordedarea) of the memory 70 and a reading controller 68 for reading themoving picture data from the memory 70 at a speed specified by MPU 56.MPU 56 acts as part of the buffer memory controlling means as well. MPU56 specifies the speed of reading the moving picture data from thememory 70 in response to a signal indicative of the used space of thememory 70 transmitted from the memory capacity monitor 64.

The reading controller 68 can operate in either one of constant speedreading mode for reading data at a constant speed and a direct readingmode for reading data at an arbitrary reading speed at which reading canbe performed. In the direct reading mode, a transfer circuit (not shown)used for the constant speed reading is bypassed and the buffer memory 70is read at a speed higher than or lower than the constant speed inresponse to an instruction from MPU 56. A reading mode switching unit 66performs this mode switching. Either one of the memory capacity monitor64 and MPU 56 gives the reading mode switching unit 66 an instruction toswitch the mode.

Based on the used space of the buffer memory 70, MPU 56 specifies thespeed of playback processing performed by the MPEG2 decoder 50 and theNTSC encoder 52 so as to change the speed of playing back the movingpictures.

Next, a description will be given to the operation of a receiving andplaying back apparatus 60 and a method thereof. An ADSL receivingsection 42 receives data transmitted from a transmitting server system30 over a telephone line and an ATM demodulating section 44 demodulatesthe data to MPEG2-TS. MPEG2-TS is transmitted to buffer B to betemporarily stored. In normal state, the temporarily stored MPEG2-TS isread at a constant speed specified by the MPU 56. MPEG2-TS is inputtedto the MPEG2-TS demultiplexer 46 at the constant speed. The MPEG2-TSdemultiplexer 46 extracts MPEG2 data corresponding to a selected programspecified by the MPU 56 out of the multiplexed MPEG2 data. The extractedMPEG2 data is stored in buffer A. The moving picture data required forplaying back is read from buffer A to be transmitted to the MPEG2decoder 50. The MPEG2 decoder 50 restores the MPEG2 data to a statebefore compression. The NTSC encoder 52 converts the restored movingpicture data to an NTSC signal to be outputted to a video/audio outputunit.

MPEG2-TS is outputted from buffer B at the constant speed, so that theMPEG2 data is inputted to buffer A at a substantially constant speed.The speed of outputting MPEG2-TS from buffer B is preferably equal tothe transmission rate of MPEG2-TS transmitted from the transmittingserver system 30. For example, MPU 56 determines an average datareceiving speed of the MPEG2-TS received by the ADSL receiving section42 and the average speed can be assumed to be an MPEG2-TS transmissionrate transmitted from the server system 30. In the constant speedreading mode, MPU 56 may specify the average data receiving speed as theconstant speed.

The uniform data output speed of buffer B enables to keep the data inputspeed to buffer A substantially uniform. It is possible to substantiallyequate the data input speed to buffer A with the data transmission ratefrom the transmitting server system 30 by matching the data output speedfrom buffer B with the data transmission rate from the server system 30.Buffer B can compensate variations in data transmission rate that occuron the communication line. Buffer A can compensate minor variations inplayback time that occur within the server system 30 and the apparatus60.

Although the reading speed of MPEG2-TS read from buffer B is preferablykept uniform, the reading speed may be temporarily changed to otherdesired speed by buffer memory controlling means (64, 68, 56). Forexample, there is a possibility of buffer B to cause overflow orunderflow depending on the situation of variations in data transmissionrate over a communication line.

FIG. 3 shows a data reading speed controlling procedure on the basis ofthe used space of buffer B. The memory capacity monitor 64 periodicallymonitors the used space of the buffer memory 70 and informs MPU 56 ofthe current used space Mt at predetermined time intervals (S100). MPU 56specifies the speed of reading moving picture data from the memory 70 onthe basis of the current used space Mt. Further, MPU 56 specifies thespeed of playing back the moving picture data based on the current usedspace Mt of the memory 70.

When the current used space Mt is more than, for example, 80% of totalmemory capacity Mb and approaches an overflow (S102), MPU 56 gives thereading controller 68 an instruction to increase the speed of readingMPEG2-TS from the buffer memory 70 (S104). Further, MPU 56 gives aninstruction to increase the playback speed of the MPEG2 data (S106). Theplayback speed of the MPEG2 data can be increased by shortening the timeunit Tc2 based on the base clock generated by the base clock generatingsection 54.

When the current used space Mt is less than, for example, 20% of thetotal memory capacity Ma and approaches an underflow (S108), MPU 56gives the reading controller 68 an instruction to slow down the speed ofreading MPEG2-TS from the buffer memory 70 (S110). Further, MPU 56 givesan instruction to slow down the playback speed of the MPEG2 data (S112).The playback speed of the MPEG2 data can be reduced by lengthening thetime unit Tc2 based on the base clock generated by the base clockgenerating section 54.

The reading controller 68 reads MPEG2-TS from the buffer memory 70 atthe speed specified by MPU 56. The MPEG2 decoder 50 and the NTSC encoder52 play back the MPEG2 data at the playback speed specified by MPU 56.The playback speed of the MPEG2 decoder and the NTSC encoder 52 iswithin a range of speed at which a viewer does not recognize variationsin playback speed and display screen noise due to variations in the baseclock does not occur. The speed of reading the MPEG2-TS from buffer B isalso within a range of speed at which buffer A does not cause overflowor underflow.

It should be noted, however, that the occurrence of an overflow or anunderflow may be unpreventable merely by the change of theabove-mentioned reading speed. For example, there is a higherpossibility that an overflow or an underflow occurs when the used spaceMt of the memory (S114) continues to increase, even if the speed ofreading data from buffer B is increased, and when the used space Mt ofthe memory (S114) continues to decrease, even if the speed of readingdata from buffer B is reduced. If such a state requiring additionaladjustment is detected (S116), additional adjustment processing (S118)is performed.

FIG. 4 shows an example of the additional adjustment processing (S118).When the current used space Mt of the buffer is found to exceed, forexample, 80% of the memory capacity Mb and approaches an overflow(S120), MPU 56 gives the reading mode switching unit 66 an instructionto switch to the direct reading mode. The reading mode switching unit 66is responsive to the instruction to switch the reading mode of thereading controller 68 (S122). In addition, MPU 56 gives the MPEG2decoder 50 an instruction to play back moving pictures with the numberof moving picture frames to be played back per unit time reduced (S124)to further increase the speed of playing back the moving pictures.

When the current used space Mt of the buffer is smaller than, forexample, 20% of the total memory capacity Ma and approaches an underflow(S126), MPU 56 gives the MPEG2 decoder 50 an instruction to suspendplayback processing of a new moving picture frame (S128), and torepeatedly play back the moving picture frame which is being presentlyplayed back (S130).

It is possible to prevent the overflow or the underflow of buffer B fromoccurring by monitoring the used space of the buffer memory 70 andadjusting the speed of reading data from the memory 70 and the playbackspeed of the MPEG2 decoder 50 on the basis of the used space of thememory 70.

Although it is not shown in figures, when the used space Mt of thebuffer memory 70 returns to normal (20 to 80% of the total memorycapacity), control is necessary to return the reading speed and themoving picture playback speed to the original state. After the currentused space Mt of the buffer returns to normal, MPU 56 gives the readingcontroller 68 an instruction to restore the playback speeds of the MPEG2decoder 50 and the NTSC encoder 52, as well as giving an instruction toread data at the original constant speed. Such return control isperformed in the steps of S116 and S118.

Instructions needed for MPU 56 to perform processing shown in FIGS. 3and 4, and parameters, such as Ma and Mb are stored in memory means (notshown), such as ROM (Read Only Memory) and PROM (Programmable ROM)within the receiving and playing back apparatus 60. Ma and Mb can be setto arbitrary values.

As mentioned above, one embodiment according to the present inventionhas been described so far, but the present invention is not limited tothis embodiment. For example, as shown in FIG. 5( a), MPU may directlygive the reading controller 68 an instruction to switch the reading modeof buffer B. Further, as shown in FIG. 5( b), MPU can monitor the usedspace of buffer B.

Buffer B may be placed at any position between the ADSL receivingsection 42 and buffer A. Buffer B is preferably provided at a positionclose to buffer A to prevent time variations in various processing ofdata from buffer B from giving influence on playback processing ofmoving pictures.

The MPEG2-TS demultiplexer 46 shown in FIG. 1 may be omitted, when themoving picture data to be transmitted is not multiplexed. Any receiversand demodulators conforming to the protocol of the moving picture datato be transmitted can be used for the ADSL receiving section 42 and theATM demodulating section 44.

The present invention can be realized in hardware, software, or acombination of hardware and software. A visualization tool according tothe present invention can be realized in a centralized fashion in onecomputer system, or in a distributed fashion where different elementsare spread across several interconnected computer systems. Any kind ofcomputer system—or other apparatus adapted for carrying out the methodsand/or functions described herein—is suitable. A typical combination ofhardware and software could be a general purpose computer system with acomputer program that, when being loaded and executed, controls thecomputer system such that it carries out the methods described herein.The present invention can also be embedded in a computer programproduct, which comprises all the features enabling the implementation ofthe methods described herein, and which—when loaded in a computersystem—is able to carry out these methods.

Computer program means or computer program in the present contextinclude any expression, in any language, code or notation, of a set ofinstructions intended to cause a system having an information processingcapability to perform a particular function either directly or aftereither or both of the following conversion to another language, code ornotation, and/or reproduction in a different material form.

Thus the invention includes an article of manufacture which comprises acomputer usable medium having computer readable program code meansembodied therein for causing a function described above. The computerreadable program code means in the article of manufacture comprisescomputer readable program code means for causing a computer to effectthe steps of a method of this invention. Similarly, the presentinvention may be implemented as a computer program product comprising acomputer usable medium having computer readable program code meansembodied therein for causing a function described above. The computerreadable program code means in the computer program product comprisingcomputer readable program code means for causing a computer to effectone or more functions of this invention. Furthermore, the presentinvention may be implemented as a program storage device readable bymachine, tangibly embodying a program of instructions executable by themachine to perform method steps for causing one or more functions ofthis invention.

It is noted that the foregoing has outlined some of the more pertinentobjects and embodiments of the present invention. This invention may beused for many applications. Thus, although the description is made forparticular arrangements and methods, the intent and concept of theinvention is suitable and applicable to other arrangements andapplications. It will be clear to those skilled in the art thatmodifications to the disclosed embodiments can be effected withoutdeparting from the spirit and scope of the invention. The describedembodiments ought to be construed to be merely illustrative of some ofthe more prominent features and applications of the invention. Otherbeneficial results can be realized by applying the disclosed inventionin a different manner or modifying the invention in ways known to thosefamiliar with the art.

Thus, although there have thus been shown and described methods andapparatus for receiving and playing back data which fulfill all theobjects and advantages sought therefor. Many changes, modifications,variations and other uses and applications of the subject invention willhowever, become apparent to those skilled in the art after consideringthis specification and the accompanying drawings which disclose thepreferred embodiments thereof. All such changes, modifications,variations and other uses and applications which do not depart from thespirit and scope of the invention are deemed to be covered by theinvention, which is to be limited only by the claims which follow.

1. A method for receiving and playing back recorded data, said methodcomprising the steps of: receiving, with an asynchronous digitalsubscriber line (ADSL) receiver section, recorded moving picture datatransmitted over a communication line, said moving picture data having apredetermined playback rate; demodulating the moving picture data toprovide an MPEG2-TS signal; storing the received moving picture data ina second buffer memory; reading the moving picture data from the secondbuffer memory at a desired speed; storing the moving picture data readfrom the second buffer memory in a first buffer memory; reading themoving picture data required for playback from the first buffer memory;extracting MPEG2 data from the second buffer memory; and playing back atsaid predetermined playback rate the moving picture data read from thefirst buffer memory and independently reducing the effects of playbackdue to variations in data transmission rates; wherein said step ofreading the moving picture data from the second buffer memory comprises:checking used space of the second buffer memory; responsive to thechecking step, specifying the speed of reading the moving picture datafrom the second buffer memory on the basis of the used space of thesecond buffer memory; and reading the moving picture data from thesecond buffer memory at the specified speed wherein said step ofspecifying the speed of reading comprises: giving an instruction toincrease the speed of reading the moving picture data from the secondbuffer memory, when the used space of the second buffer memory exceeds apredetermined value; and using a base clock generating section togenerate a base clock to define time units; using the base clockgenerating section for preventing underflow when the used space of thesecond buffer memory decreases below a predetermined value andapproaches a state of no memory data by reducing the speed of readingthe moving picture data from the second buffer memory to the firstbuffer memory for the data decoder, and causing the base clockgenerating section to lengthen a time unit of the MPEG2 decoder to slowdown playback speeds of the data decoder and the data encoder, therebytemporarily decreasing moving picture data transmitted from the secondbuffer to the first buffer because of the slowdown in playback speed,such that reduction in data volume outputted from the second bufferprevents underflow from occurring while storing the moving picture dataread from the second buffer memory to the first buffer memory, and usinga micro-processor unit for specifying a speed of playing back the movingpicture data on the basis of the used space of the second buffer memory;wherein said step of specifying the speed of playing back the movingpicture data comprises: giving an instruction to increase the speed ofplaying back the moving picture data, when the used space of the secondbuffer memory exceeds a predetermined value; and giving an instructionto reduce the speed of playing back the moving picture data, when theused space of the second buffer memory is below a predetermined value;wherein said step of giving an instruction to increase the speed ofplaying back includes: a step of giving an instruction to play back themoving picture data with the number of the moving picture frames to beplayed back per unit time reduced, and said step of giving aninstruction to reduce the speed of playing back includes the step ofgiving an instruction to suspend playback processing of a new movingpicture frame and to repeatedly play back the moving picture frame beingcurrently played back; wherein said moving picture data includesmultiplexed moving picture data, and further comprises the step ofextracting required moving picture data from the multiplexed movingpicture data before playback, and wherein: said moving picture dataincludes moving picture data compressed by an MPEG2 system, and saidstep of playing back the moving picture data comprises the step ofrestoring the moving picture data to the state before compression.